Light, of course, since that's what the light bulb is designed to produce. There is also waste energy, as heat, and (to a small extent) as sound.
Light , which is useful Heat , which is NOT useful.
Light, heat, sometimes sound.
Electricity is the source of energy in a light bulb.
A light bulb uses electrical energy, and produces light, as well as heat.
Battery (chemical energy) goes to the wires (electrical energy) which goes to the light bulb (thermal and electromagnetic energy. In the bulb of a traditional flashlight, electric current energy is transformed to heat and then partially to light, when the temperature of the filament in the bulb is sufficient. In an LED type flashlight, little heat is produced and more of the electrical current energy is transformed into light.
Most of the energy in a light bulb is heat energy.
Heat and Light energy
Light , which is useful Heat , which is NOT useful.
it come from the energy source in the middle of the light bulb he clearly asked what type of energy is it?!
The useful energy that comes out is light energy. Heat energy is also produced but is not useful
Light, heat, sometimes sound.
The battery produces electrical energy. If the light bulb is connected between the terminals of the battery, then the bulb will change the electrical energy into heat, and if you're lucky and you have the correct voltage, also maybe some light.
If you mean could you use the light from a bulb to energize a solar array or photovoltaic cell, the answer is yes. However the energy to run the bulb would exceed the energy produced by the array so you would have a net loss of energy in such a system.
There is a piece of filament in every light bulb, which has so much friction that when the electric current passes through it, heat energy is produced. This heat energy is then converted to light energy.
In a light bulb, electrical energy is transformed into light energy and heat energy.
Electricity is the source of energy in a light bulb.
A light bulb uses electrical energy, and produces light, as well as heat.